Double camera



April 11, 1939.

F. w. JACKMAN 2,153,892

DOUBLE CAMERA Filed April 4, 193 6 5 Sheets-Sheet l INVENTOR. FPED WJACKMAN April 11,1939. F. w. JACKMAN 2,153,892

I DOUBLE I CAMERA Filed April 4,1936 5 Sheets-Sheet 2 mmvron' F250 l/V. JAc/(MA/v A TTORN April 11, 1939. F. W.-JACKMAN ,1 8

DOUBLE CAMERA Filed April 4; 1956 5 sheets-sheet :s

INVENTOR. I

BY ATTORNEY.

April 11, 1939. F. w. JACKMAN I 2,153,892

DOUBLE CAMERA Filed April 4, 19se 5 sheets-sheet 4 -bb "wac April 11, 1939. v F. w. JACKMAN DOUBLE CAMERA 5 Sheets-Sheet 5 Filed April 4, 1936 flEnnnnnunununmun rMn mmahhfi M i=5 bniannwhuuuuunuu a W m RM \ififiwgguaamu nmnnnnuunuununnusa WJ m A J N A O O A E E qnnnunnunn uuuunnE m P am ATTORNEY r amed Apr. 11, 1939 Fred w. Jaokman, Beverly mus, can,

to Warner Bros. Pictures, Inc" a corporation of Delaware assignor Calm,

Application April 4, 1m, Serial No. 12.12. 5 Claims. (Cl. ss-m' This invention relates to the art of photography and particularly to apparatus for producing multiple, trick, or color films.

An object of the invention is to provide a simple and compact double camera arrangement. This 7 is accomplished by providing a camera support adapted to carry two motion picture camera bodies angularly displaced from each other. A lightproof lens compartment is provided on the support to carry the objective lenses of each of the photographing cameras as well as a semitransparent mirror which is placed at the intersection of the optical axes of the cameras to allow light rays from a scene being photographed to be directed equally to each camera. The lens compartment is entirely enclosed except for a window on one side thereof toallow the light rays from a scene to reach the mirror, thus preventing stray light from reaching either of the cameras and providing a dustproof partition for the camera lenses and mirror.

ticularly to a standard type of motion picture camera having a film magazine extending beyond the front wall of the camera. compactness of the front walls of the two cameras with the above mentioned light divider and lens compartment is provided by supporting-two such cameras not only at right angles but also in upside down relation to each other whereby the front of the film magazines project away from each other in different planes thereby permitting the front walls of the two cameras to be brought closely adjacent to each'other in right angular relationship.

A further object of the invention is to adjust the semi-transparent mirror of a double camera arrangement for rectilinear and angular movement. This is accomplished by providing a slide for moving the mirror rectilinearly in a plane parallel to a plane through the optical axes of the two cameras. A support carrying the mirror is rotatably mounted on the slide and has a crank operatively associated therewith which is engaged by a screw threadably carried by the slide.

- An outstanding feature of the invention resides in the fact that two films may be simultaneously photographed from the same point of view, each film having pictures'which are identical in size,

shape and form with the pictures of the other film. Also the tonal values of the two films may, as desired, be identical or different. In case two negative films-are required 'as in some types of trick photography or in production printing, the above feature eliminates the necessity of printing in order to obtain a second negative. Further, the invention may be advantageously -employed occupied by the foreground action, the invention The invention relates parthat the portion of each frame to be occupied by 'viously' be employed for the background action in' lieu of the foreground action.

employed, filters of complementary colors such 'asred andbluemaybeused,onebeingplaced the two cameras may be cemented together with II as a safety measure in cases where it would be diillcult to re-photograph the scene which ordinarily might be necessitated due to breakage or bucklingofthe film in the camera or due to maladjustment of the shutter opening or lens stop. a For example, in photographing an expensive set or scene which is to be destroyed during the photographing thereof one of the cameras of the double camera arrangement would be adjusted with a different shutter opening, lens stop or 10 even focus. If, on developing the two films it is found that portions of one film are superior to the co portions of the other film, these selected portions could be directly substituted or inter-cut with the other film. 1 A further feature of the invention resides in the fact thatin composite photography wherein a traveling mat is employed to block out portions of the background picture which is to be later may be utilized to photograph both the traveling mat and the foreground action simultaneously. This is accomplished by employing one of the cameras to photograph or produce the traveling mat film and the other camera to photograph the foreground action film. In this case the foreground action would be photographed preferably in front of' a black drop. The mat film would be so photographed or treated after photographing the foreground action' would be opaque and the adjacent portion to be occupied by the back ground would be clear. The mat would then be superimpoud on an original background film to print a second background film with the portion to be later occupied by the foreground action completely blocked out. In a subsequent printing operation theforeground action is' printed on the unexposed portions of the second background film in a manner well known to thoseskilled in the art. of course, the mat may ob- A further feature of the invention resides in its adaptation to color photography. when so in each of the twocameras. In'this'case the. films of-the twocameras are preferablyrunin the same direction, with their emulsion coated surfaces toward their respective objective lenses. After development the positive printed films ob-' tained from the negatives thus photographed in their respective emulsion surfaces in contact to produce a natural color film.

Referring to the accompanying drawings,

Fig. l is a plan view of the double camera attachment with parts in section.

Fig. 2 is a front elevation view taken in the direction of the arrow 2 in Fig. 1.

Fig, 3 is a side elevation view with parts broken away, taken in the direction of the arrow 3 in Fig. 1.

Fig. 4 is a perspective view of one of the color filters provided in the attachment.

Fig. 5 is a sectional elevation view taken along the line 5-5.of Fig. 1.

Fig. 6 is a view similar to that of Fig. 3 but with parts in section.

Fig. '7 is a sectional plan view of a camera synchronizing device and is taken along the line 'I-T of Fig. 5.

Fig. 8 is a sectional elevation view through an objective lens mount and photographing aperture and is taken along the line 88 of Fig. 1.

Fig. 9 is a sectional view of a portion of one of the cameras and an objective lens mount therefor and is taken along the line 9-9 of Fig. 8.

Fig. 10 is a sectional elevation view of the semi-transparent mirror and its adjustment, and is taken along the line III-I0 of Fig. 6.

Fig. 11 is a bottom view of the mirror adjustment and is taken in the direction of the arrow II in Fig. 10.

Figs. 12-14 show sections of film having pictures produced thereon by means of the double camera attachment.

Referring to Figs. 1-5, the double camera attachment embodies a camera mount comprising a pair of spaced horizontal camera plate members I and 2 which are held in spaced vertical relation to each other by a pair of brackets 3 and 4. The upper plate member I is adapted to support a motion picture camera 5 in an upside down position. The camera plate member 2 is adapted to support a second motion picture camera 6 in an upright position and at right angles to the camera 5. The plate members I and 2 are so spaced that the optical axes of the cameras 5 and 6 will both lie in the same horizontal plane extending beyond the front wall of the camera. Both of the cameras 5 and 6 are shown as being of a standard type, such as is known in the art as the Mitchell camera, each comprising a camera body I (Fig. 6) ,having a film magazine 8 thereon. A pull down mechanism 9 is provided to intermittently move the film past a photographing aperture I0 (Figs. 6 and 8). A focusing tube. II is provided on the side of the camera to enable the operator to focus the objective lens thereof.

A socket I8I depending from plate 2, as shown in Figs. 3 and 8 is provided to support the double camera unit from a suitable pin not shown.

In order to move either of the cameras 5 and 6 sideways into focusing position, each of the plate members I and 2 is provided with dovetailed slides I2 and I3. These slides I2 and I3 are adapted to be slidably engaged by mating dove-tailed slides provided on the under surface of each of the cameras 5 and 6. Gear racks I4 and I5 are also provided on the under surface of each of the cameras 5 and 6, parallel to the slides I2 and I3, and are engaged by spur gears I6 and I! (Fig. 3)'which are secured upon a transverse camera racking shaft I8. Shaft I8 is journaled within the sides of the plate member 2 and has a handle I9 provided thereon whereby the camera 6 may be racked into a focusing position so as to allow,the focusing tube II to be brought in line with the objective lens for the camera 8. A similar racking arrangement 20 is provided for the camera 5. Thus, the focusing positions of the cameras 5 and 6 are indicated by the dotted line positions 5 and 6 (Fig. 1).

Both of the cameras 5 and 6 are adapted to be simultaneously and synchronously driven by a single motor 2|. A motor adaptor 22 is secured to the forward end of the plate member 2 by means of knurled clamp screws 23 and 24. The adaptor 22 has an enlarged socket 25 (Fig. 3) which receives a projecting shoulder portion 26 on the forward end of the motor H. A clamp screw 21 is provided to hold the motor 2I in engagement with the adaptor 22. The motor shaft 28 of motor 2| is coupled at 29 to a stub shaft 30 within the adaptor 22. Shaft 30 is journaled within a bearing 3| and has a spiral gear 32 which meshes with a second spiral gear 33 secured upon a horizontally extending shaft 34 (Fig. 1) A third spiral gear 35 is also provided on the shaft 34 and meshes with a mating spiral gear 36 (Fig. 3) provided on the lower end of a vertical shaft 31. Shaft 31 has another spiral gear 38 secured at its upperend which meshes with a mating spiral gear 39. Gear 39 is slidably keyed upon a camera driving shaft 40 (Fig. 1) which is journaled within bearing caps4I and 42 provided on the upper end portion of the adaptor 22. The shaft 40 has a long key way 43 therein and is slidable longitudinally by means of a knob 45 formed on the projecting end thereof. The inner end of the shaft 40 has a suitable coupling connection 46 through which it is adapted to drive the camera shaft 41 of the camera 6. When the camera 6 is to be moved into its focusing position, the shaft 40 may be pulled outwardly into the dotted line position 40' to allow the camera to be moved into its dotted line position 6'.

The lower horizontal shaft 34 (Fig. 1) also has a coupling 48 through which it is adapted to drive a shaft 49 extending longitudinally of the plate member 2. Shaft 49 is journaled within suitable bearings (not shown) depending from the plate member 2 and has a bevel gear 50 secured to the inner end thereof. Referring to Fig. 5, a second bevel gear 5I meshing with gear 50 is secured on the lower end portion of an intermediate gear shaft 52. Shaft 52 is journaled within bearings 53 and 54 provided in the plate members I and 2 respectively and has a bevel gear 55 secured to its upper end. Gear 55 meshes with a mating bevel gear 55 secured upon a transverse horizontal shaft 51 which is journaled at one end in a bearing 58 provided in a bearing cap 59 and at its other end within a bearing cap 60 provided within a second adaptor 6|. A spiral gear 62 is secured to the shaft 51 within the adaptor GI and meshes with a mating spiral gear 63 (Fig. 2) provided on a vertically extending shaft 64. Shaft 64 is journaled within bearing caps 65 and 66 and has a spiral gear 67 secured to its lower end portion. Gear 61 meshes with a similar gear 68 which is mounted upon a longitudinally slidable camera driving shaft 69 (Fig. 5). Shaft 69 is identical with the shaft 40 (Fig. 1) 'to allow the camera 5 to be racked into its focusing position.

A synchronizing arrangement II (Figs. 5 and 7) is provided upon the shaft 52. Shaft 52 is split into two portions I2 and I3 having knurled relative to each other to synchronize the interadjacent ends. A pair of screws I8 and 11 pass through arcuate slots 18 and I9 formed in the disk I8 and are threadably mounted within the lower disk 18. Thus it will be seen that by unloosening the screws 18 and 11, the portions I2 and 18 of the shaft 82 may be rotatably adjusted mittent movementsof the cameras 8 and 8. Also,

of course, the intermittent movements of thetwo cameras, if desired, may be adjusted for any relative position desired instead of being synchronized.

Referring now to Figs. 1, 6 and 8, the camera attachment has a lens compartment 88. Walls 8| and 82 enclosing a portion of the compartment 88 have objective lens mounts 88 and 88 provided thereon. A semi-transparent mirror 85 is provided at the intersectionof the optical axes of the lens mounts 88 and 88. Mirror 85 is formed of glass or other suitable transparent material which has been rendered semi-transparent as by subliming or sputtering a thin coating of platinum on one surface thereof. Mirror 88 is placed at anangle usually about 45 to theoptical axis of each of the cameras 8 and 8 so as to provided .at the intersection of the two walls split and direct an image ray (shown by the dotted line 88, Fig. 1) into both of the objective lens mounts 88 and 88 whereby it may be simultargeosusly recorded in each of the cameras 8 an Referring now toFig. 8, the objective lens 88 of the camera 8 is threadably secured at 89 within a lens adaptor 88. Adaptor 88 has an extemally threadedfportion 9i which is adapted to be engaged by a mating threaded portion formed within a bevelgear 92. Gear 82 has a bearing portion 88 which is journaled upon a shoulder projecting fom a sleeve 88 secured to the wall 82 as by screws 88. A pin 88 provided in the gear 92 engages acircumferential groove 91 formed on the outer circumference of the sleeve 98 to prevent endwise movement of'the bevel gear 92. The adaptor 88 has a pin 98 projecting therefrom which rides within a groove 99 formed longitudinally of the axis of sleeve 98. Thus it will be seen that rotation of gear 92 will cause the adaptor 88 and .objective lens 88 to be moved longitudinally of the optical axis of thelens, the pin 98 serving to prevent rotation of the lens 88. .The objective lens of the camera I is identical with that of camera 6 and has a bevel gearv I88 similar to that of 82 to obtain a focusing movement. Both of the gears 92 and I88 mesh with a pinion III secured upon a shaft I82. 'Shaft I821ia journaled within bearings 8I and and also at the intersection of a second pair .of'

in mesh with, thegearl 82 and I88 and when it is desirablegto-change the focus of one of the objectives in relation tothe other, the gear I8I 88. 88, 88 etc. for cameras 8 may Ice-withdrawn from the mesh by means of a knob I88 provided on the end of the shaft I82 to allowone'of the gears 82 or-l88 to be rotated 'shown in Fig. 2 and the upstanding flange I89 II8 passed therearound. A

walls I88 and I88. A spring I88 is Provided-to normally retain the bevel gear Illl being independent, it is transparent mirror ment 88 is carried by camera plate I.

In order to focus the objective lenses of the cameras 8 and 8 simultaneously and externally of the compartment 88, a focusing knob I88 is provided at the rear of the camera attachment (Figs. 1' and 5). Referringagain to Fig. 8, a circumferential groove I88 is formed along the outer circumference of the gear 92 to receive a cable clamping piece III is provided to clamp a portion of the cable III) to the groove I88. Both ends of the cable II8 are passed through apertures provided in the base of the compartment 88 and thence around idle pulleys '2 (Fig. 6). As shown in Fig. 1, both ends of the cable ley II8- operatively connected to the focusing knob I88 (Fig. 5). A clamping piece H1 is provided on the pulley I I8 to secure a portion of the cable IIII thereto. The knob I88 has a graduated scale along its periphery bearing indicia corresponding to the focusing of the objective lenses. 7 Referring to Figs. 1, 8 and 9, I shall now describe the independent iris adjustments of the objective lenses. As shown in Fig. 8, the objective lens 88 is of standard construction having a rotatable knurled sleeve 9. Rotation of the sleeve II9 causes expansion or contraction of the iris mechanism (not shown) within the barrel of the objective lens 88. A slot I28 is pro-' vided transversely of the sleeve .9 and is adapted to be engaged by a tongue I2I provided on II8 are then passed around the second pair ofidle pulleys H8 and H8 in the inner end of an iris adjusting sleeve I22.

Sleeve I22 is rotatably mounted on the inner circumference of the lens adaptor 98. A rearwardly extending flange I28 on the sleeve I22 has a screw I28 threadably mounted therein. The inner end of the screw I28 projects within a guiding groove formed on the outer circumference of the gear member 92., A second screw I28 provided on the flange I28 has a ball shaped head which is adapted to be engaged by a rod I21 having a socket I28 thereon for engagement with the head of screw I28. Rod I2! is pivotally secured at its other end I21 (Fig. l) to a lever I29 within the compartment 88. A combined operating han dle and indicating pointer I88 is provided externally of the compatment 88 and is connected to the lever I29 by means of a vertically extending shaft-I8I. A scale I82 is provided having indicia thereon to indicate the size of the opening provided by the iris mechanism. A similar iris control I88 is provided for the objective lens of the camera 5. Although the two iris adjustments for either camera 5 or 8 are shown as to be understood, that with certain obvious modifications, these two' mechanisms may be interconnected.

Referring now to Figs. 6, 10, and 11, the semi- 88 is shown as being mounted upon a support I88. Support I88 has a circular base I88 which rests upon a dove-tailed slidemember I81. A stud member I88 is rotatably. mounted within the member I81 and passes into the support I88 where it is suitably secured thcreto by asquare shank I88. Stud I88 is provided at its lower end, with a square shank I88 which is engaged by one end of a crank member I8I. A depending pin I82 is provided cn-ihe opposite end of the lever Ill and is engaged on either side by a pair of circular guide flanges I43 and I44 formed on a transversely extending screw I45. A pair of brackets or lugs I46 and I41 formed on the under surface of the slide member I31 are provided in which the screw member I45 is rotatably mounted. The threaded portion I48 of screw I45 engages a similarly threaded portion provided in the bracket I46. Thus it will be seen that by rotating a knob I49, provided on the screw I45, the transparent mirror 85 may be adjusted about a vertical axis to secure desirous results. Referring to Figs. 1 and 10, the slide member I31 is supported upon the base I50 of the compartment 80 and is engaged at either side by dove-tailed guides I5I and I5! which are secured to the base I50 as by screws I53. Slots I54, I55, and I56 (Fig. 11) are provided to allow the brackets I46 and I41 as well as the stud member I 38 to be moved lengthwise with the slide member I31. A clamping nut I51 is threadably mounted upon the stud I38 to clamp the slide member I31 in any desired position. Therefore, it will be seen that two adjustments of themirror 85 are provided. That is, it may be rotated about avertical axis and may also be'moved longitudinally.

A cover plate I59 (Figs. 1, 2 and 6) is provided to enclose the top and side portions of the compartment 80. A transparent window I60 is provided in front of the coverI59 to allow the image rays 86 to be passed therethrough. Window I60 is secured upon a vertically slidable member I6I which is slidable within guideways I62 and I63 on either side thereof.

As was stated before, filters are provided for each of the cameras 5 and 6 for the production of color pictures or for various trick shots and other desired results. Referring to Fig. 1, filter holders I64 and I65 are provided for the cameras 5 and 6 respectively. Each of these filters is mounted between the compartment walls as at 82 and I04 and is slidably mounted between guides I66 and I61 (Fig. 8) which are secured as by screws I68 to the wall I04. Each filter I10 (Figs. 4 and 8) is mounted within a recess I1I formed within the filter holder I64 or I65. A retaining border frame I13 is provided to hold the filter I10 within the holder. A handle I14 is provided on the outer edge of the holder I10 to allow for insertion of the filter.

One example of the type of film attainable through the use of the double camera attachment is shown in Figs. 12-14. Herein, one of the films, for example, I15 (Fig. 12) has been exposed within one of the cameras 6. The film I16 (Fig. 13) has been exposed within the other camera 5. In this example, an actor I60 is arranged in two, preferably complementary colors; his face being colored red and his coat blue. Red and blue filters corresponding to the colors of the actor are placed in the cameras 5 and 6 respectively so as to produce films having different tonal values. Thus it will be seen that the camera having a blue filter will admit only that portion of the object which is of the same color and will not admit any complementary color thereto. In the other camera, using a red filter, this condition will be directly opposite, that is, only a portion of the object showing a red color would be admitted to the film. In the final lntercutting or interprinting of the two films I15 and I16, to produce a single film I11 (Fig. 14) the film I15, at a certain point, for example, I18, may be intercut with a similar portion I19 upon the film I16. This intercutting will produce a film showing a sequential motion but with any desired changing of color values or shading without necessitating similar color changes upon the object while being photographed. Although it is preferable to employ two different filters in the two cameras respectively the above mentioned tonal or color change may also be accomplished by photographing with a filter in one camera and without a filter in the other. Desired portions of either film may then be intercut as hereinbefore described. This method of photography is disclosed and claimed in my divisional application S. N. 135,983 filed April 9, 1937, for Photography.

Having thus described the invention,-what is claimed as new and desired to secure by Letters Patent, is: i

1. Photographic apparatus comprising a light deflector for directing light rays from an object into cameras having optical axes in the same plane, slide means for moving said deflector in a plane parallelto a plane through the optical axes of said cameras, a deflector support rotatably supported on said slide for holding said defiector, a crank operatively connected to said support for rotating said support, a screw threadably carried by said slide, and means on said screw for engaging said crank.

2. A photographic apparatus comprising means for supporting a pair of camera lenses with their optical axes at right angles to each other, means adapted to support a camera body in operative relation with each of said lenses, common adjusting means for focusing said lenses, a. viewfinder attached to each of said camera bodies, and means for slidably supporting each of said camera bodies and its viewfinder whereby each of said camera bodies at certain times and its said viewfinder at other times may be aligned with its respective lens.

3. In a photographic apparatus, a pair of lenses having their optical axes at substantially right angles to each other, a light proof lens compartment having enclosing walls therefor, said lenses being mounted in two of said walls, means in said compartment for directing light rays from an object into each of said lenses, 9. window in said compartment to allow light rays from said object to reach said means, common adjusting means exteriorly of said compartment for adjusting said lenses along their respective optical axes, and means for slidably supporting a camera body having a front wall and a viewfinder in operative relation to each of said lenses.

4. In a photographic apparatus, a pair of lenses, means for supporting said lenses with their optical axes in angular relation to each other, a light proof lens compartment having enclosing walls therefor, said lenses being mounted in two of said walls, means in said compartment for directing light rays from an object into each of said lenses, a window in said compartment for allowing light rays from an object to reach said means, common adjusting means exteriorly of said compartment for adjusting said lenses along their respective axes, means adapted to individually adjust each of said lenses along its respective optical axis, and means for slidably supporting a camera body having a front wall and a viewfinder in operative relation to each of said lenses.

5. In a photographic apparatus a wall section. a pair of lenses mounted in said wall section with the optical axes thereof intersecting each other at substantially right angles, light deflecting means for directing a portion of the light rays ports. a.v common from object through one said lenses and for allowing another portion of saidrays to pass through the other of said lenses and'camera supmeans comprising a pair of camera plates in parallel planes and extending at right angles to each other, and camera supporting means on the adjacent sides of said plates. 6. In combination a plurality of camera mechanisms having their optical axes ina common horizontal plane and disposed at an angle with one another in said plane, a light divider positioned at the intersectionoi the optical axes of said camera mechanisms, a compartment nousing said light divider, respective objective lenses for each 0! said camera mechanisms mounted in the walls of said compartment, a common focusing adjustment tor all ot said objective lenses, and a common support for said camera mechanisms having means thereon !or individually shitting said cameras'perpendicularlyto their optical axes for view finding purposes, said compartment being mounted on said support.

7. A combination in accordance with claim 6 in which means are provided for interconnecting the focusing means oi each of said objective lenses, said interconnecting means being removable tor-individually adjusting each of said objective lenses.

8. In combination a support for a plurality oi. camera mechanisms each having a viewfinder, said camera mechanisms and viewfinders being adjustable therein, a compartment having an objective and its viewfinder, respective walls of said compartment, a light beam splitting means positioned in said ampartment, said compartment being mounted on lens (or each of said camera mechanisms said camera mechanisms support, and common driving means for operating all of said camera mechanisms simultaneously, said camera -mech-' anisms being interchangeable with standard motion picture mechanisms. y

9. Photographic apparatus comprising a pair or camera plates, brackets attached to said plates for supporting the same at right angles to each other in parallel planes, a camera support on eachottheadjacentiacesoisaidplateaaseparate camera body on each of said camera=supsaid lenses being mounted in light divider and lens compartment lor said cameras and a common power drive for said cameras. porting means in fixed relation to said wall, said 10.Photographic apparatus'according to claim meat supported from one of said plates adjacent said camera supports.

11. Photographic apparatus according to claim 9 comprising a motor attached to'one of said plates, a camera coupling connected to said motor and supported by said last mentioned plate,

gearing connected to said motor and coupled to a second'gearing attached to said other plate,

and a cameracoupling connected to said second gearing and supported by said other plate.

12. Photographic apparatus according to claim 9 comprising a camera coupling for each of said plates, and a powerdrive adapted to be operated by a single motor for bothof said camera couplings.

l3. Phot aphic apparatus comprising a camera plate, means on one side 01 said plate for slidably supporting a camera and its viewfinder on said plate,- a :motor supported bysaid plate, a slidable coupling for driving the camera from said motor, a rotatable shaft on the other side of said plate and adapted to drive a second camera, gearing connecting said motor and said shaft,

and a light divider and lens compartment for .said cameras.

14. Photographic apparatus comprising a pair oi'camera lensesarranged at right angles, a gear for each oi said lenses, a pinion connecting said lenses, and means for driving one of said gears to drive the other 0! said gears through said pinion, and an adjustable mount for uncoupling said pinion from said gears.

l5. Photographic apparatus combinationoi! a pair of separate camera bodies each havinga front wall and a film supp y and "take-up magazine overhanging said front wall,

and an adaptor for said separate camera bodies comprising a light divider and lens compartment, apower drive common to said camera bodies and means for supporting said camera bodies in upside down and right angular relationship with said film magazinesoverhangins pposite sides of said light divider and lens compartment.

FRED 'W. JACKMAN.

comprising the 

